SU799160A1 - Phase-manipulated signal receiving device - Google Patents

Description

The invention relates to communication technology and can be used in devices for the regeneration of binary sequences and signal processing with phase manipulation for 180 in radio communications, radiolocation, and during radio frequency x. A receiving device of Phase-manipulated signals is known, which contains an input bandpass filter, a shaper of a reference coherent signal, the first output of which is connected to the first input of the multiplier, the output of which is connected to the input of: the integrator p. However, the noise immunity of the device is low. The purpose of the invention is to improve the noise immunity of the device. This goal is achieved by the fact that a receiver of a phase-manipulated signal containing an input band-pass filter, a shaper of a reference coherent signal, the first output of which is connected to the first input of the multiplier, the output of which is connected to the integrator's input, are connected in series to a spectrum converter, amplitude limiter and low filter frequency and the output of the input bandpass filter is connected to the first input of the spectrum converter, to the second input of which the second output is connected forshrovatel coherent reference signal, and a low-pass filter output is connected to a second input of multiplier. The drawing shows a structural electrical circuit of the receiving device. The receiving device of Phaso-manipulated signals contains an input bandpass filter 1, a spectrum converter 2, an amplitude limiter 3, a low-frequency filter 4, an auxiliary multiplier 5, a coherent reference signal shaper 6, and an integrator 7. The device operates as follows. The phase-manipulated signal is fed through the input band-pass filter 1 to the input of converter 2, to another input of which a signal is sent from the output of generator 6. The signal spectrum at the output of converter 2 corresponds to the spectrum of the Phase-manipulated cosine pulse sequence, which is formed by frequency conversion of the carrier oscillation in the Holohm pulse wave frequency. Signal value equal to half the clock frequency of the manipulating sequence. EFINITIONS noise power spectral density at the output of the converter 2.

From the output of converter 2, the signal arrives at the input of the amplitude limiter 3. In this case, the corresponding sequence of square pulses is formed from the man-oscillated Laze waveform sequence, and the spectral density distribution of the noise power in the frequency band occupied by the signal varies slightly. The signal from the output of the amplitude limiter 3 is fed to the input of the filter 4, which limits the noise band of the converted signal and noise mixture. From the output of filter 4, the signal arrives at the input of multiply 5, the second input of which from the output of shaper 6 receives a periodic sequence of rectangular pulses with a frequency equal to half of the clock. At the output of the multiplier 5, a signal is generated that corresponds to the original manipulating code sequence.

The code sequence demodulated in this way comes from multiplier 5 to the input of integrator 7.

The sequential inclusion of the converter 2, the amplitude limiter 3 and the filter 4 increases the noise immunity of the reception under the action of impulse noise. The correction of the frequency response and the frequency response of the cosine pulse sequence in transducer 2 reduces the effect of intersymbol interference.

Claims (1)

1. Gurov B.C. and others. The transfer of discrete information and telegraph. M., Zv, 1974, p. 238 (prototype).